FLOW-INDUCED ALIGNMENT OF LAMELLAR BLOCK-COPOLYMER MELTS

Toward the integrated synthesis and processing of functional block cop olymer nanostructures, the physics of flow-induced alignment of block copolymers must be understood to predict the direction, rate and degre e of alignment. In this review we focus on key issues regarding flow-i nduced alignment of lamellae. A three-dimensional mapping summarizes p revious results on the selection of alignment directions (parallel or perpendicular) and their pathways in terms of three dimensionless para meters: frequency, temperature and strain amplitude. Trajectories, kin etics and structural evolution are explored in a fourth dimension (tim e). The challenge of developing adequate experimental methods for moni toring transient structure is discussed. A comprehensive experimental approach, which combines in-situ rheo-optical measurements and ex-situ structural characterization by electron microscopy and X-ray scatteri ng, is presented as a new tool for tracking changes of microstructure and orientation during flow-induced alignment. Various mechanisms that have been proposed over the past two decades are reviewed and re-eval uated based on recent experimental results. Outstanding questions and new issues raised by ABC triblock copolymer nanstructures are discusse d. (C) 1998 Elsevier Science Ltd. All rights reserved.